Although numerous studies have focused on conflict management, few have considered the effects of unit technology and intrapersonal, intragroup, and intergroup conflict on team performance effectiveness and work satisfaction. The model was tested using a nonexperimental design. Path analysis using multiple regression was used to test the model. The nonrandom sample consisted of 141 nurses employed on 13 inpatient units at a state-supported, 597-bed academic medical center in a southeastern city. Findings indicated that intrapersonal conflict had a direct negative impact on intragroup conflict and work satisfaction. Intragroup conflict had direct negative effects on work satisfaction and team performance effectiveness. Unit technology had a direct negative impact on work satisfaction. Findings have implications for administrators to implement strategies to decrease a stressful work environment and increase team-building activities.
Relatively little is known about the underlying neuropathology of dysphagia in amyotrophic lateral sclerosis (ALS); thus, effective treatments remain elusive. Tremendous progress toward understanding and treating dysphagia in ALS may be possible through the use of an animal model of dysphagia in ALS research; however, no such animal model currently exists. The most logical candidate to consider is the SOD1-G93A transgenic mouse, the most widely investigated animal model of ALS. To investigate whether this animal model develops dysphagia, oral behaviors (lick and mastication rates) of SOD1-G93A transgenic mice (n = 30) were evaluated at three time points based on hind limb motor function: asymptomatic (60 days), disease onset (approximately 110 days), and disease end-stage (approximately 140 days). Age-matched nontransgenic littermates (n = 30) served as controls. At each time point, lick and mastication rates were significantly lower (p< 0.05) for transgenic mice compared with controls. Histologic analysis of the brainstem showed marked neurodegeneration (vacuolation) of the trigeminal and hypoglossal nuclei, two key motor components involved in mastication and licking behaviors. These results demonstrate a clinicopathologic correlation of oral dysfunction in SOD1-G93A transgenic mice, thereby establishing the SOD1-G93A transgenic mouse as a bona fide animal model of oral dysphagia in ALS.
The effects of unit morale and interpersonal relations on conflict in the nursing unit Background. Health care organizations face major changes, and these changes are likely to increase conflict in organizations. Although numerous studies have focused on conflict management, few have considered causes and effect of conflict in nursing units. Methods. The investigation tested a structural equation that examined the relationships among individual and contextual variables and intragroup conflict, job satisfaction, team performance effectiveness, and anticipated turnover. The nonrandom sample consisted of 141 nurses employed on 13 inpatient units at a state‐supported, 597‐bed academic medical centre in a southeastern city. Results. Intragroup conflict was higher on smaller units with a higher ratio of RNs to total staff. Intragroup conflict was not associated with satisfaction with pay or anticipated turnover. In the final model, the unit morale and interpersonal relations dimension of team performance effectiveness was negatively associated with intragroup conflict and anticipated turnover, and positively associated with satisfaction with pay. High perceptions of unit morale and interpersonal relations buffered the effect of unit size and skill mix on intragroup conflict. Goodness of fit statistics indicated a good fit of the model to data. Conclusion. The findings have implications for nursing educators and administrators, and provide direction for future research.
We recently established that the SOD1-G93A transgenic mouse is a suitable model for oral-stage dysphagia in amyotrophic lateral sclerosis (ALS). The purpose of the present study was to determine whether it could serve as a model for pharyngeal-stage dysphagia as well. Electrophysiological and histological experiments were conducted on end-stage SOD1-G93A transgenic mice (n = 9) and age-matched wild-type (WT) littermates (n = 12). Transgenic mice required a twofold higher stimulus frequency (40 Hz) applied to the superior laryngeal nerve (SLN) to evoke swallowing compared with WT controls (20 Hz); transgenic females required a significantly higher (P < 0.05) stimulus frequency applied to the SLN to evoke swallowing compared with transgenic males. Thus, both sexes demonstrated electrophysiological evidence of pharyngeal dysphagia but symptoms were more severe for females. Histological evidence of neurodegeneration (vacuoles) was identified throughout representative motor (nucleus ambiguus) and sensory (nucleus tractus solitarius) components of the pharyngeal stage of swallowing, suggesting that pharyngeal dysphagia in ALS may be attributed to both motor and sensory pathologies. Moreover, the results of this investigation suggest that sensory stimulation approaches may facilitate swallowing function in ALS.
The effect of an effortful swallow on the healthy adult esophagus was investigated using concurrent oral and esophageal manometry (water perfusion system) on ten normal adults (5 males and 5 females, 20-35 years old) while swallowing 5-ml boluses of water. The effects of gender, swallow condition (effortful versus noneffortful swallows), and sensor site within the oral cavity, esophageal body, and lower esophageal sphincter (LES) were examined relative to amplitude, duration, and velocity of esophageal body contractions, LES residual pressure, and LES relaxation duration. The results of this study provide novel evidence that an effortful oropharyngeal swallow has an effect on the esophageal phase of swallowing. Specifically, effortful swallowing resulted in significantly increased peristaltic amplitudes within the distal smooth muscle region of the esophagus, without affecting the more proximal regions containing striated muscle fibers. The findings pertaining to the LES are inconclusive and require further exploration using methods that permit more reliable measurements of LES function. The results of this study hold tremendous clinical potential for esophageal disorders that result in abnormally low peristaltic pressures in the distal esophageal body, such as achalasia, scleroderma, and ineffective esophageal motility. However, additional studies are necessary to both replicate and extend the present findings, preferably using a solid-state manometric system in conjunction with bolus flow testing on both normal and disordered populations, to fully characterize the effects of an effortful swallow on the esophagus.
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